The Department of Instrumentation and Control Engineering is the harbinger of its field and is a jewel in the crown of the Institution. We are one among the few Institutions in State growing in the field of Instrumentation and Control.
The current trends foretell that this millennium will face a lot of changes in all walks of life and is going to be more demanding. The competitive scenario that is emerging emphasizes the Darwinian concept of “Survival of the fittest” and this means a continuous upgrading of knowledge, skill and apt and innovative application by every individual.
Steered by well experienced and dedicated staff, the Department prunes the young minds in the right direction, so that the students emerge as cognizant candidates whose potential and skill ameliorate the present industrial scenario.
Bachelor of Instrumentation and Control Engineering curriculum is designed to prepare the graduates toacquire knowledge, skills and attitudes in order to:
| S.NO | NAME/NO OF STUDENT | NAME OF THE COLLEGE | NATURE OF THE EVENT | DATE | PRIZE |
|---|---|---|---|---|---|
| 1 | 4 | Green micro Electronics,Coimbatore | Internship | 20.7.23-5.8.23 | |
| 2 | 2 | Roots Industries India private limited,Roots Metralogy and testing laboratory,Chennai | Internship | 19.7.23-19.8.23 | |
| 3 | 4 | ECI Systems | Internship | 05.4.23-06.5.23 | |
| 4 | 49 | Kerala Electrical and Allied Engineering Company Limited | Industrial visit | 19.10.23 | |
| 5 | 49 | Sea blue Ship yard limited,cochin | Industrial visit | 18.10.23 | |
| 6 | 56 | INSTRUTEC’23 | Department Association Function | 17.10.23 | |
| 7 | 8 | IPCS Automation | Internship | 25.5.23-29.5.23 | |
| 8 | 8 | IPCS Automation | Internship | 27.3.23-31.3.23 | |
| 9 | 8 | Novi Tech R&D Pvt Ltd | Internship | 20.2.23-25.2.23 | |
| 10 | 8 | Novi Tech R&D Pvt Ltd | Internship | 13.2.23-18.2.23 | |
| 11 | 8 | Novi Tech R&D Pvt Ltd | Internship | 6.2.23-10.2.23 | |
| 12 | 4 | Jai Shriram Engineering College | Paper Presentation(Second Place) | 28.9.2022 | |
| 13 | 24 | A2F Technology,Chennai | Workshop | 27.5.2022 | |
| 14 | Aswath G-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 15 | Noel Ronish S-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 16 | Nandha kumar N-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 17 | Logeshwari K-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 18 | Jeganathan B-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 19 | Jeevan K-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 20 | Gugan bharath M-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 21 | Gopu K-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 22 | Elango A S-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 23 | Adtil hatim S-III ICE | Tamilnadu College of Engineering | Conference | 6.9.22 | |
| 24 | Naveen kumar S-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 25 | Noel Ronish S-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 26 | Mohamed suhail narshif-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 27 | Nandha kumar N-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 28 | Logeshwari K-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 29 | Jeganathan B-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 30 | Gugan bharath M-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 31 | Elango A S-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 32 | Adtil hatim S-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 33 | Aswath G-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 34 | Jeevan K-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 35 | Gopu K-III ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 36 | Mani bharathi R-IV ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 37 | Pravin kumar R-IV ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 38 | Kabilan K-IV ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 39 | Seenu N-IV ICE | Tamilnadu College of Engineering | Workshop | 16.8.22-17.8.22 | |
| 40 | 9 | Prolific systems &Technologies (P) Ltd. | Internship | 20.6.22-24.6.22 | |
| 41 | Nivedh mohan-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 42 | Aiswarya S S-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 43 | Varghese K Johney-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 44 | Satheesh kumar M-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 45 | Poovendhan S-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 46 | Mugilvannan V-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 47 | John Thomas Sahar J-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 48 | Guru prasath P-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 49 | Balaji.S-IV ICE | Tamilnadu College of Engineering | Conference | 17.5.22 | |
| 50 | Aswath G-II ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 51 | Jeevan K-II ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 52 | Gopu K-II ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 53 | Nivedh mohan-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 54 | Mani bharathi R-III ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 55 | Pravin kumar R-III ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 56 | Kabilan K-III ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 57 | Aiswarya S S-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 58 | Varghese K Johney-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 59 | Satheesh kumar M-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 60 | Poovendhan S-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 61 | Mugilvannan V-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 62 | John Thomas Sahar J-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 63 | Guru prasath P-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 64 | Balaji S-IV ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 65 | Seenu N-III ICE | Tamilnadu College of Engineering | Workshop | 19.4.22-20.4.22 | |
| 66 | 4 | Axis Global Automation | Internship | 14.3.22-18.3.22 | |
| 67 | 7 | IPCS automation | Internship | 7.3.22-11.3.22 | |
| 68 | 5 | Prolific systems &Technologies (P) Ltd. | Internship | 16.11.20-20.11.20 | |
| 69 | Nivedh mohan-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 70 | Mani bharathi R-II ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 71 | Pravin kumar R-II ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 72 | Kabilan K-II ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 73 | Aiswarya S S-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 74 | Varghese K Johney-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 75 | Satheesh kumar M-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 76 | Poovendhan S-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 77 | Mugilvannan V-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 78 | John Thomas Sahar J-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 79 | Guru prasath P-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 80 | Balaji S-III ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 81 | Seenu N-II ICE | Tamilnadu College of Engineering | Workshop | 16.9.20-17.9.20 | |
| 82 | 4 | Novi Tech R&D Pvt Ltd | Internship | 10.8.20-14.8.20 | |
| 83 | 4 | Axis Global Automation | Internship | 3.8.20-7.8.20 | |
| 84 | Muhilan B | Karpagam College of Engineering | Workshop | 27th Sep 2017 | Participation |
| 85 | Muhilan B | Karpagam College of Engineering | Workshop | 23rd Sep 2017 | Participation |
| 86 | T.Balaji | Nehru College of Aeronautics & Applied Science | Group song | 22nd Sep 2017 | Participation |
| 87 | Surendran | Nehru College of Aeronautics & Applied Science | Group song | 22nd Sep 2017 | Participation |
| 88 | Sarath Joshy | Nehru College of Aeronautics & Applied Science | Instrumental Music | 22nd Sep 2017 | Second & Rs.750 cash prize |
| 89 | M.Seenuvasan | Kumaraguru College of Technology | Workshop | 2nd Sep 2017 | Participation |
| 90 | Beautlin E | Kumaraguru College of Technology | Workshop | 2nd Sep 2017 | Participation |
| 91 | Akhil S Nair | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 92 | Venkatesh G | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 93 | Chukkaran R | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 94 | Krishnakumar C | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 95 | Dharmadurai G | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 96 | Rajasekaran P | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 97 | Arulmanikan R | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 98 | Andiyappan AL | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 99 | Prabhakaran T | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 100 | Beautlin E | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 101 | Rajesh R | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 102 | M.Seenuvasan | Info Institute of Engineering | Workshop | 1st August 2017 | Participation |
| 103 | Andiyappan | Coimbatore Institute of Technology | Workshop | 18th Aug 2017 | Participation |
| 104 | Akhil S Nair | Coimbatore Institute of Technology | Workshop | 18th Aug 2017 | Participation |
| 105 | Prabakaran | Coimbatore Institute of Technology | Workshop | 18th Aug 2017 | participation |
| 106 | Beautlin E | Coimbatore Institute of Technology | Workshop | 18th Aug 2017 | Participation |
| 107 | C.Krishna Kumar | Coimbatore Institute of Technology | Workshop | 18th Aug 2017 | Participatio |
| 108 | Muhilan | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 109 | Thamjeed Maqbool | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 110 | Rajasekaran | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 111 | Mugesh.M.T | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 112 | Dharaniram.T.S. | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 113 | Aravinth | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 114 | Diljin C James | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 115 | Arun Kumar B | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 116 | Kishor | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 117 | Vishnu Prasad | Entrepreneurship Workshop, TCE | Workshop | 8th Aug to 10th Aug 2017 | Participation |
| 118 | Balaji.T | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 119 | Aravindh.N | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 120 | Surendran.G | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 121 | Sakthivel.S | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 122 | Rajarajeshwaran.R | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 123 | Muruga Pandi B | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 124 | Mugesh.M.T | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 125 | Makeshwaran .L | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 126 | Kaniya Surya .S | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 127 | Kaleel Rahman.S | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 128 | Gokulnath M | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 129 | Dharaniram.T.S. | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 130 | Arun Kumar.P | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 131 | Ajith Kumar.M | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 132 | Ajith .A | IPCS Automation Coimbatore | Workshop | 8th Jul 2017 | Participation |
| 133 | Rinoy John | Saintgits College Of Engineering | Short Film | 25th Feb 2017 | Participation |
| 134 | Sarath Joshy | Saintgits College Of Engineering | Short Film | 25th Feb 2017 | Participation |
| 135 | Eldhose K Varghese | Adi Shankara Institute Of Engineering & Technology | Short Film | 25th Feb 2017 | Participation |
| 136 | Pranav K P | Adi Shankara Institute Of Engineering & Technology | Short Film | 25th Feb 2017 | Participation |
| 137 | Jenry Jacob | Adi Shankara Institute Of Engineering & Technology | Short Film | 25th Feb 2017 | Participation |
| 138 | Anto Jose | Adi Shankara Institute Of Engineering & Technology | Short Film | 25th Feb 2017 | Participation |
| 139 | Maneesh V Thomas | Adi Shankara Institute Of Engineering & Technology | Short Film | 25th Feb 2017 | Participation |
| 140 | Diljin C James | Adi Shankara Institute Of Engineering & Technology | Short Film | 25th Feb 2017 | Participation |
| 141 | Alex Babu | Adi Shankara Institute Of Engineering & Technology | Short Film | 25th Feb 2017 | Participation |
| 142 | Basil T | AdiShankara Institute Of Engineering & Technology | Short Film | 25th Feb 2017 | Participation |
| 143 | D.Priyatharshini | Sns College Of Technology | Symposium | 3rd & 4th Feb 2017 | Participation |
| 144 | Aravindhan | Sns College Of Technology | Symposium | 3rd & 4th Feb 2017 | Participation |
| 145 | Rinoy John | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 146 | Sarath Joshy | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 147 | Eldhose K Varghese | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 148 | Pranav K P | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 149 | Jenry Jacob | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 150 | Anto Jose | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 151 | Maneesh V Thomas | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 152 | Diljin C James | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 153 | Alex Babu | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 154 | Basil T | Saintgits College Of Engineering | Short Film | 17th & 18th Feb 2017 | Participation |
| 155 | Manoj R | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 156 | Gokul R | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 157 | Arun Kumar U L | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 158 | Vishnukumar S | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 159 | Mathivanan R | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 160 | Sneha R | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 161 | Jeya Murugan | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 162 | Diljin C James | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 163 | Sudhan R | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 164 | Mohamed Thasleem M | Tamilnadu College Of Engg | Entrepreneurship Awareness Camp | 03rd Aug16-25th Aug16 | Participation |
| 165 | Udhaya Kumar S | Kumaraguru College Of Technology | Workshop On Vlab&Vtu Lab | 19th Aug16 | Participation |
| 166 | Ashik Rahman M | Kumaraguru College Of Technology | Workshop On Vlab&Vtu Lab | 19th Aug16 | Participation |
| 167 | Noorul Bahrudeen R | Kumaraguru College Of Technology | Workshop On Vlab&Vtu Lab | 19th Aug16 | Participation |
| 168 | Priyatharseni D | Kumaraguru College Of Technology | Workshop On Vlab&Vtu Lab | 19th Aug16 | Participation |
| Hindusthan Institute Of Technology | Symposium-Paper Presentation,Technical Quiz | 31st Aug 16 | |||
| 169 | Sneha R | Kumaraguru College Of Technology | Workshop On Vlab&Vtu Lab | 19th Aug16 | Participation |
| Hindusthan Institute Of Technology | Symposium-Paper Presentation, Technical Quiz | 31st Aug 16 |
| SL.NO | NAME OF THE PROGRAM | TRAINER |
| 1. | One day mini-project training for domestic applications circuits on 01.10.2019( ICE STUDENTS) | Mr.Prasanth Krishnan, Managing Director,
BE CORE ACADAMEY,Coimbatore |
| S.NO | STUDENT NAME | EVENT & PROGRAM NAME | ORGANISER | DATE/ DURATION | PARTICIAPTION / PRIZE AWARD |
|---|---|---|---|---|---|
| 1 | Ramkumar.M | Best Physique | KumaraguruCollege Of Technology | 12th Aug-15th Aug 2016 | 2nd Prize |
| 2 | S.Vishnu | Karunya Trophy(Basket Ball) | Karunya University | 21.9.16- 22.9.16 | Particiaption |
| Zonal Match | KPRIET | 17.9.16-18.9.16 | 4th Place | ||
| KCT Trophy | KCT | 12.08.16-13.08.16 | Particaption | ||
| 3 | G.Sella Kumar | Karunya Trophy(Basket Ball) | Karunya University | 21.9.16- 22.9.16 | Particiaption |
| Zonal Match | KPRIET | 17.9.16-18.9.16 | 4th Place | ||
| KCT Trophy | KCT | 12.08.16-13.08.16 | Particaption | ||
| 4 | M.Mohammed Thasleem | Karunya Trophy(Basket Ball) | Karunya University | 21.9.16- 22.9.16 | Particiaption |
| Zonal Match | KPRIET | 17.9.16-18.9.16 | 4th Place | ||
| KCT Trophy | KCT | 12.08.16-13.08.16 | Particaption | ||
| 5 | M..Mohamed Thasleem | Basket Ball | Cent Ties | 5th March 2017 | articipation |
| 6 | G.Sellakumar | Basket Ball | Cent Ties | 5th March 2017 | articipation |
| 7 | S.Vishnu Kumar | Basket Ball | Cent Ties | 5th March 2017 | articipation |
| 8 | M.Udhaya Kumar | Handball | Cent Ties | 15th To 16th Feb 2017 | Participation |
| 9 | S.Uthaya Kumar | Volleyball | Cent Ties | 23rd Feb 2017 | Participation |
| 10 | Raj R | Handball | Cent Ties | 15th To 16th Feb 2017 | Participation |
| 11 | Ajith Kumar M | Handball | Cent Ties | 15th To 16th Feb 2017 | Participation |
| 12 | Logesh K | Handball | Cent Ties | 15th To 16th Feb 2017 | Participation |
| 13 | S.Vishnu Kumar | Cricket | TCE Cricket Trophy | 28th Feb & 1st March 2017 | Third Place |
| 14 | Pachaimuthu | Cricket | TCE Cricket Trophy | 28th Feb & 1st March 2017 | Third Place |
| 15 | S.Vishnu Kumar | Cricket | Park Trophy | 9th March 2017 | Participation |
| 16 | Pachaimuthu | Cricket | Park Trophy | 9th March 2017 | Participation |
| 17 | Kaviarasan | Kabaddi | Centies | Feb 2017 | Participation |
| 18 | Balaji | Badminton | Centies, KCT | 12th Feb 2017 | Participation |
| 19 | M.Ramkumar | Best Physique – 70 Kg | Kumaraguru College of Technology | 16th Aug to 18th Aug 2017 / 3 days | II place |
| 20 | M.Ramkumar | Body building championship | Tirupur district body builders welfare society | 30th July 2017 / 1 day | VII place |
| 21 | M.Ramkumar | Best Physique – 70 Kg | Parisutham Institute of Technology & Science | September 2017 / 1 day | I place |
| 22 | M.Ramkumar | Body building championship ( Mens physique above 5’4”) | Hardcore Fitness & Chennai District Body building championship | 21st & 22nd October2017 / 2 days | IX place |
| 23 | M.Ramkumar | Body building championship – 70 Kg | Hardcore Fitness & Chennai District Body building championship | 21st & 22nd October2017 / 2 days | VIII place |
| 24 | M.Mohammed Thasleem | Basketball | Srisakthi College of Engineering & Technology | 7th & 8th August 2017 / 2 days | Participation |
| 25 | G.Sellakumar | Basketball | Srisakthi College of Engineering & Technology | 7th & 8th August 2017 / 2 days | Participation |
| 26 | B.Rajkamal | Basketball | Srisakthi College of Engineering & Technology | 7th & 8th August 2017 / 2 days | Participation |
| 27 | R.Sneha | Ball Badminton – KPR trophy | KPR Institute of Engineering & Technology | 4th August 2017 / 1 day | Participation |
| 28 | P.Rajasekaran | Volleyball – KCT Trophy | Kumaraguru College of Technology | 16th & 17th August | Participation |
| Faculty Name | Awards |
|---|---|
| Dr. G. Saravana Kumar | Life Member of Indian society of technical education – LM38737 |
| Life Member of Instrumentation society of India | |
| Life Member of System society of India – LM27032 | |
| Life Member of International Association of Engineers (IAENG) | |
| Member in IEEE (USA) – 91099518 | |
| Dr. G. Saravana Kumar | Life Member of Indian society of technical education – LM38737 |
| Mrs. R. Gokila | Centum Results Award for “Professional Ethics” |
| Mr. D. Yuvraj | Centum Results Award for “Instrumentation & System Design” |
| Mrs. A. Manjula | Centum Results Award for “Logic & Distributed Control Systems” |
This lab is fully furnised with the Process control and transducer Equipments. In Process control Equipments has computerized process stations for level, pressure, flow and temperature, Advanced Cascade Control Loop with Smart Transmitter, PLCs with application trainers and various transducer modules.
An advanced sensors transducer modules by which the students can learn the principle and measurement techniques several parameters like temperature, wind, light intensity, Ph, conductivity and many more. All equipments are established with industrial standards which will help the students to adopt themselves in the industrial environment in future. Also, it paves a way for students to develop their thirst in the field of Research and Development.
| Process Control Equipments- | 32, 63, 095.50/- |
| Transducer Lab Equipments- | 3, 04, 138.00/- |
| Area: | 127 square meter |
| Usages of lab: | III ICE/PROCESS CONTROL AND INSTRUMENTATION LABORATORY |
This laboratory has industrial instrumentation equipments to measure the flow – venture meter and orifice plate. The Bridge circuit trainer kit is available to analyse the measure parameter. The ECG trainer kit is available to measure the heart pulse rate and oscilloscopes to learn minute variations.
| Laboratory Cost:- | 14, 22, 511.00/- |
| Area: | 105 square meter |
| Usages of lab: | III ICE/PROCESS CONTROL AND INSTRUMENTATION LABORATORY/IV ICE/INSTRUMENTATION SYSTEM DESIGN LABORATORY |
The primary goal of the Advanced Control Systems Lab (ACSL) is to perform research on advanced topics in modern control theory, such as nonlinear robust control, optimal control theory, differential game theory, and nonlinear estimation. It facilitates the students in learning advanced process control applications such as distributed control system, having familiarity with the MATLAB software tool.
| Laboratory Cost:- | 1,66,637.00/- |
| Area: | 127 square meter |
| Usages of lab: | IV ICE/INDUSTRIAL AUTOMATION LABORATORY |
This laboratory was established in an idea to expose the students with practical knowledge. Matlab and LabVIEW software helps the student to simulate any kind of a real time program before testing it on hardware. The lab provides hands on experience to analyze and simulate the latest trends in the field of instrumentation.
| Laboratory Cost:- | 15,90,410.00/- |
| Area: | 66 square meter |
| Usages of lab: | III ICE/INDUSTRIAL AUTOMATION LABORATORY |
| Laboratory Cost:- | 2,52,000.00/- |
| Area: | 55 square meter |
| Usages of lab: | III ICE/6th Semester |
The department library consists of 279 text books for all the subjects from first semester to eighth semester of instrumentation and control engineering curriculum. The department library has books like quantitive aptitude, verbal reasoning, etc for the students to develop their analytical skills.
| S.NO | NAME OF THE EVENT | TITLE | DATE | ORGANIZED | |
|---|---|---|---|---|---|
| 1 | Hands of training | Advanced Industrial Robotics – Real programming and Operations | 3rd and 4th March 2016 | Axis Global Automation Pvt Ltd, Chennai | |
| 2 | Training Program | LABVIEW with Applications | 11th March 2016 | Department of ICE | |
| 3 | Conference Fourth National Conference on Control, | Communication and system engineering | 5th April 2016 | Department of ICE | |
| 4 | Symposium | Intruduz’16 | 6th April 2016 | Department of ICE | |
| 5 | Faculty Development Program Controller Tuning for Non-Linear Processes with Real Time | Interfacing using MATLAB and LabVIEW Software | 1st July 2016 | Department of ICE | |
| 6 | Workshop for Polytechnic Students | Real Time Interfacing and Tuning of Non-Linear Control System using LAB View and MATLAB Software | 29th July 2016 | Department of ICE | |
| 7 | Guest Lecture | Industrial Sensors and Actuators – Real Time Applications | 17th September 2016 | Technologics, Bangalore | |
| 8 | Workshop | Project Development using Domestic Application Circuits | 19th to 21st March 2017 | Acetronz Automations, Coimbatore | |
| 9 | Workshop for school students | Hands –On Training with RoboKits | 22nd September 2016 | Acetronz Automation, Coimbatore | |
| 10 | Conference | Fifth National Conference on Control, Communication and system engineering | 22nd March 2017 | Department of ICE | |
| 11 | Symposium | Keisorura’17 | 21st March 2017 | Department of ICE | |
| 12 | Association Inaugural function | Keisorura’17 | 29th August 2017 | Department of ICE | |
| 13 | Guest Lecture | Recent trends in Industrial Automation | 16th February 2017 | Axis Global Automation Pvt. Ltd, Coimbatore | |
| 14 | Guest Lecture | Industrial Automation using VFD | 22nd February 2017 | Prolific Automation Pvt. Ltd, Coimbatore | |
| 15 | Workshop | Project Development using Domestic Application Circuits | 16th and 17th March 2017 | Acetronz Automations, Coimbatore | |
| 16 | Workshop for school students | Robotics & Science | 7th December 2017 | Department of ICE | |
| 17 | Symposium | Keirorura’18 | 21st February 2018 | Department of ICE | |
| 18 | Awareness Program | Opportunities for engineering students to become Commissioned officers in Indian Navy,Army & Airforce | 6th March 2018 | CCUS Defense Academy, Coimbatore | |
| 19 | Conference | Sixth National Conference on Control, Communication and system engineering | 28th March 2017 | Department of ICE |
| NAME OF THE PROGRAM: | VIC01- VALUE ADDED COURSE ON VIRTUAL INSTRUMENTATION |
| YEAR: | II,III & IV ICE |
| DATE: | 13.02.23 to 17.02.23 20.02.23 to 24.02.23 27.02.23 to 3.03.23 |
| TIMING: | 15 days each day 2 hours 4:30 to 6:30 |
| DURATION: | 30 hours |
| RESOURCE PERSON: | Mr.D.Yuvaraj |
| Number of students enrolled in the year: | 44 |
| Number of Students completing the course in the year: | 44 |
| NAME OF THE PROGRAM: | VIC05-VALUE ADDED COURSE ON MOBILE APP DEVELOPMENT- ANDROID |
| YEAR: | II,III & IV ICE |
| DATE: | 25.04.22 to 30.04.22 |
| TIMING: | 6 days each day 5 hours |
| DURATION: | 30 hours |
| RESOURCE PERSON: | Mrs.G.Sathya |
| Number of students enrolled in the year: | 29 |
| Number of Students completing the course in the year: | 29 |
| NAME OF THE PROGRAM: | VIC01- VALUE ADDED COURSE ON VIRTUAL INSTRUMENTATION |
| YEAR: | II,III & IV ICE |
| DATE: | 01.03.21 to 06.03.21 |
| TIMING: | 6 days each day 5 hours |
| DURATION: | 30 hours |
| RESOURCE PERSON: | Mrs.R.Gokila |
| Number of students enrolled in the year: | 28 |
| Number of Students completing the course in the year: | 28 |
| NAME OF THE PROGRAM: | VIC04- VALUE ADDED COURSE ON BASICS OF ARDUNIO |
| YEAR: | II,III & IV ICE |
| DATE: | 3.02.20 to 07.02.20, 10.02.20 to 14.02.20, 17.02.20 to 21.02.20 |
| TIMING: | 15 days each day 2 hours 4:30 to 6:30 |
| DURATION: | 30 hours |
| RESOURCE PERSON: | Mrs.A.Manjula |
| Number of students enrolled in the year: | 41 |
| Number of Students completing the course in the year: | 41 |
| NAME OF THE PROGRAM: | VIC02-VALUE ADDED COURSE ON EMBEDDED SYSTEMS |
| YEAR: | II & III ICE |
| DATE: | 11.02.2019 to16.02.19 |
| TIMING: | 6 days each day 5 hours |
| DURATION: | 30 hours |
| RESOURCE PERSON: | Mrs.S.Kanagavalli |
| Number of students enrolled in the year: | 33 |
| Number of Students completing the course in the year: | 33 |
| NAME OF THE PROGRAM: | VIC03-VALUE ADDED COURSE ON MATLAB PROGRAMMING |
| YEAR: | IV ICE |
| DATE: | 11.02.2019 to16.02.19 |
| TIMING: | 6 days each day 5 hours |
| DURATION: | 30 hours |
| RESOURCE PERSON: | Mr.D.Yuvaraj |
| Number of students enrolled in the year: | 32 |
| Number of Students completing the course in the year: | 32 |
| Name of Course: | Project Development Circuits Using Development Circuits |
| Name of Resource Person: | Mr.Vinith,Managing Director,Acetronz Automations |
| YEAR/SEM: | III/06, |
| Date: | 16.03.2017 to 17.03.2017 |
| Name of the Course: | Project Development using domestic applications Circuits |
| Resource Person : | Mr.Vinith ,Managing Director Acetronz Automation |
| Year/sem : | IV/07 Date : 19.9.16 to 21.09.16 |
| Name of the Course: | Hands on Training with RoboKits |
| Name of Resource Person : | ICE Dept faculty members |
| Students : | 11th ,12th Standard Students of ARC Matriculation Hr.Sec.School. |
| Date : | 22.09.2016 |
| Name of the Course: | Real Time Interfacing and Tuning of Non-Linear Control System using LAB View and MATLAB Software |
| Name of Resource Person: | ICE Department faculty members |
| Students: | 2nd Year, 3rd Year Students of Polytechnic |
| Date : | 29.07.2016 |
| Name of Course: | Advanced Industrial Control system |
| Name of Resource Person : | ICE Department faculty members |
| Students : | 2nd Year,3rd Year Students of Polytechnic |
| Date : | 11.12.2015 |
| Name of Course: | Mobile servicing hands on Training |
| Name of Resource Person : | Mr.B.Krishna kumar, New Technologies |
| Year/Sem: | II,III,IV ICE/ 03,05,07 |
| Regulation | Sem | Sub Code | Sub Name | Course Outcome No | Course Outcomes |
| 2021 | I | HS3151 | Professional English - I | CO1 | Understand and produce simple sentences related to everyday situations. |
| CO2 | Apply appropriate transitions in the oral and written presentation. | ||||
| CO3 | Analyze grammatical and lexical elements in relation to sentence function and meaning. | ||||
| CO4 | Evaluate independent learning strategies and study skills. | ||||
| CO5 | Develop and create own ideas to enrich the communication skills. | ||||
| MA3151 | Matrices and Calculus | CO1 | Understanding the concept of limit, continuity and detrivatives of a function, Jacobian, Taylor’s series, Lagrange’s multipliers Definite and Indefinite integrals, Improper integrals, multiple integrals and System of simultaneous linear differential equations with constant coefficients | ||
| CO2 | Apply the rules to Solving the problems in differentiation ,finding Maxima and Minima of functions of one and two variables, calculate partial differentiation of implicit functions and applying integration techniques to evaluate the ordinary and multiple integrals and integration of irrational functions | ||||
| CO3 | To Acquires skills to analyse Euler’s theorem, solving integrals using various techniques of integration, Determining convergence/divergence of improper integrals differential equations by method of variation of parameter, obtaining the solution to the undetermined coefficients | ||||
| CO4 | Evaluation of simultaneous differential equations, Taylor’s series, maxima and minima, Ordinary and multiple integrals using polar co-ordinates | ||||
| CO5 | To create and combining different techniques to obtain the solutions to the real life problems involved in differentiation, partial differential equations, integration, Taylor’s series | ||||
| PH3151 | Engineering Physics | CO1 | To understand the Stress-strain ,Oscillatory motion forced and damped oscillations thermal conduction, convection and radiation Black body radiation Compton effect | ||
| CO2 | To apply the thermal insulation like heat exchangers, refrigerators, ovens and solar water heaters. | ||||
| CO3 | To analyze the coordination number and packing factor for SC, BCC, FCC, HCP and diamond structures | ||||
| CO4 | To evaluate the numerical aperture and acceptance angle | ||||
| CO5 | To demonstrate the torsion pendulum cantilever uniform and non-uniform bending | ||||
| 2021 | I | CY3151 | Engineering Chemistry | CO1 | Applying the advanced modern scientific and engineering techniques. |
| CO2 | Analyze of the structure and function of EDTA methods, ion exchange resin, Langmuir‘s adsorption isotherm in contact theory & kinetics of surface unimolecular reactions, enzyme catalysis, - thermal analysis and cooling curves of phase rules, manufacture of metallurgical coke, flue gas analysis of exhaust gases, controlled nuclear fission & nuclear fusion reactions. | ||||
| CO3 | Evaluation of internal and external treatment process, adsorption of solute from solutions. | ||||
| CO4 | Describing real life application of modern scientific tools for solving problems . | ||||
| GE3151 | Problem Solving and Python Programming | CO1 | Examine python syntax and semantics and be fluent in the use of python flow control and functions | ||
| CO2 | Demonstrate proficiency in handling Threads, File and Exceptions | ||||
| CO3 | Analyze python program using core data structure like Lists, dictionaries and use regular Expressions. | ||||
| CO4 | Interpret the concepts of GUI and WEB programming as used in Python. | ||||
| CO5 | Implement exemplary application related to Database Programming with ORM in python. | ||||
| GE3171 | Problem Solving and Python Programming Laboratory | CO1 | Student should be able to understand the basic concepts scripting and the contributions of scripting language | ||
| CO2 | Examine the core data structures like lists, dictionaries, tuples and sets in Python to store, process and sort the data. | ||||
| CO3 | Identify the external modules and import specific methods form them | ||||
| CO4 | Demonstrate proficiency in handling Strings and File Systems. | ||||
| CO5 | Ability to explore python especially the object oriented concepts, and the built in objects of Python | ||||
| BS3171 | `Physics and Chemistry Laboratory | CO1 | To understand and also remember the basic concepts of wastewater generation, collection system, wastewater quality and standards. Also demonstrate the experimental skills. | ||
| CO2 | To apply the basic principles for wastewater, conductometric, pH and potentiometric methods for the determination of the concentration . | ||||
| CO3 | To analyses and interpret the data for quantitative estimation of the materials present in the given samples. | ||||
| CO4 | Design and Interpret field data in case of actual field problems related to wastewater & contaminations sources and also prepare the suitable models of real life applications using RO, zeolite & removal of materials by adsorbent. | ||||
| 2021 | II | GE3152 | Heritage of Tamil | CO1 | To know about the drawidian languages. |
| CO2 | To understand about the classical and modern literature. | ||||
| CO3 | To know about the heritages of TamilNadu. To know about the modern arts and sculptures. | ||||
| CO4 | To know about the cultural imparts of TamilNadu. | ||||
| CO5 | To know about the Thinai concepts of Tamils. To know about the Trades and Victories of Cholas Kingdom. | ||||
| HS3251 | Professional English - II | CO1 | Able to understand the listening exercises to enhance practical knowledge in communicative English | ||
| CO2 | To apply and enrich knowledge in the literacy skills. | ||||
| CO3 | Analyzing to communicate and write appropriately in varied formal and informal contexts. | ||||
| CO4 | Ability to evaluate the issues and find the rudiments of the problem individually and as a group | ||||
| CO5 | To design their abilities as creative thinkers, readers and writers | ||||
| MA3251 |
Statistics and Numerical Methods |
CO1 | Remembering the concept of Eigen values and Eigen vectors, Scalar potential, gradient, divergence, directional derivatives, curl , analytic functions Understanding the concept of Cayley-Hamilton Theorem, Angle between two surfaces, work done by force and independent of the path of the curve, Necessary and sufficient condition for analyticity and Cauchy’s integral theorem and formula and Transform of elementary, unit step and unit impulse function Laplace Transform and inverse transform of simple functions, | ||
| CO2 | Applying Cayley-Hamilton Theorem, transformations to diagonalize similar and symmetric matrices properties of Eigen values and Eigen vectors, canonical form for Quadratic form by orthogonal reduction, line, surface and volume integra,Solenoidal and irrottational vectors, Harmonic conjugates, bilinear transformations ,conformal mapping, and complex integration, real integral using residue theorem, transform of periodic function | ||||
| CO3 | Analyze Orthogonal vectors, Nature of the Quadratic form, Green, Stokes and Gauss divergence theorems, Properties of analytic functions, | ||||
| CO4 | Evaluation of circuit using atrices, curve length, Area and volume of irregular shapes using line, surface and volume integral , time average power flow density using Vectors graphical image of approximation with Taylor series, application of Laplace transform in cryptography , solution of linear second order differential equations with constant coefficients using real time applications | ||||
| CO5 | Describing real life application of Eigen values and vectors in image processing, and cryptography vector concepts, image processing using bilinear transformations , distinguishing singularities and poles, Laplace transform and convolution theorem | ||||
| 2021 | II | PH3255 | Physics For Instrumentation Engineering | CO1 | Remembering Carrier transport in Semiconductors: Drift, mobility and diffusion, optical absorption and emission, charge injection and recombination, optical absorption, loss and gain Understanding Classical free electron theory, Quantum free electron theory, Electron effective mass, concept of hole, Intrinsic Semiconductors – Energy band diagram, excitonic state, Electro-optics and nonlinear optics, Quantum confinement, Quantum structures, Single electron phenomena |
| CO2 | Applying Tunneling, degenerate states, exchange interaction and ferromagnetism, quantum wells, wires and dots, Zener-Bloch oscillations, Resonant tunneling, quantum interference effects, mesoscopic structures, Single electron Transistor. Semiconductor photonic structures, carbon nanotubes: Properties and applications. | ||||
| CO3 | Analyze homogeneous and heterogeneous nucleation, Electron in periodic potential ,Energy bands in solids, tight binding approximation, Dia, para and ferromagnetic effects, direct and indirect band gap semiconductors, Classification of optical materials, Optical processes in semiconductors, Optical processes in quantum wells | ||||
| CO4 | Evaluation Crystal structures: BCC, FCC and HCP – directions and planes - linear and planar densities, Expression for electrical conductivity,Thermal conductivity, expression, Fermi- Dirac statistics, Density of energy states , paramagnetism in the conduction electrons in metals, Carrier concentration in intrinsic semiconductors – extrinsic semiconductors - Carrier concentration in N-type & P-type semiconductors – Variation of carrier concentration with temperature, 1D, 2D and 3D photonic crystal. | ||||
| CO5 |
Design crystal imperfections- edge and screw
dislocations – grain and twin boundaries - Burgers vector and elastic
strain energy- Slip systems, plastic deformation of materials, nucleation and
growth, quantum interference devices,GMR devices, Hall effect and devices ,Ohmic
contacts Schottky diode, Optoelectronic devices light detectors and solar cells, light emitting diode, laser diode , optical processes n organic semiconductor devices, Modulators and switching devices – plasmonics |
||||
| BE3251 | Basic civil and mechanical Engineering | CO1 | Understanding profession of Civil and Mechanical engineering. | ||
| CO2 | Summarise the planning of building, infrastructure and working of Machineries. | ||||
| CO3 | Apply the knowledge gained in respective discipline | ||||
| CO4 | Illustrate the ideas of Civil and Mechanical Engineering applications. | ||||
| CO5 | Appraise the material, Structures, machines and energy. | ||||
| GE3251 | Engineering Graphics | CO1 | Ability to understand the basics Projection of Points , Planes, Solids, Section of Solids , Isometric Projection and Development surfaces for simple solids. | ||
| CO2 | Ability to Apply the basics Projection of Points , Planes, Solids, Section of Solids , Isometric Projection and Development surfaces for simple solids. | ||||
| CO3 |
Able to analyze the basics Projection of Points
, Planes, Solids, Section of Solids , Isometric Projection and Development surfaces for simple solids. |
||||
| CO4 | Able to Explore Simple Solids generated by one modeling tool. | ||||
| CO5 | Ability to design simple Solids generated by one modeling tool. | ||||
| 2021 | II | GE3271 | Engineering Practices Laboratory | CO1 | Ability to apply basic machining operations, welding, plumbing, sheet metal operations in order to produce the desired work output. |
| CO2 | Ability to analyse outputs of machining operations like turning, facing, milling and plumbing works, sheet metal operations, soldering and home electrical works. | ||||
| CO3 | Ability to conduct the experiments as individual or team by using CNC and CAD/CAM. | ||||
| CO4 | Ability to make an effective report based on experiments | ||||
| EEE3271 | Electrical circuit laboratory | CO1 | Use simulation and experimental methods to verify the fundamental electrical laws for the given DC/AC circuit (Ex 1) | ||
| CO2 | Use simulation and experimental methods to verify the various electrical theorems (Superposition, Thevenin , Norton and maximum power transfer) for the given DC/AC circuit (Ex 2-5) | ||||
| CO3 | Analyze transient behavior of the given RL/RC/RLC circuit using simulation and experimental methods (Ex 6) | ||||
| CO4 |
Analyze frequency response of the given series
and parallel RLC circuit using simulation and experimentation methods (Ex 7-8) |
||||
| GE3272 | COMMUNICATION LABORATORY | CO1 | Speak effectively in group discussions held in a formal/semi formal contexts | ||
| CO2 | :Discuss, analyse and present concepts and problems from various perspectives to arrive at suitable solutions | ||||
| CO3 | Write emails, letters and effective job applications | ||||
| CO4 | Write critical reports to convey data and information with clarity and precision | ||||
| CO5 | :Give appropriate instructions and recommendations for safe execution of tasks | ||||
| EE3251 | ELECTRIC CIRCUIT ANALYSIS | CO1 | Explain circuit’s behavior using circuit laws. | ||
| CO2 | Apply mesh analysis/ nodal analysis / network theorems to determine behavior of the given DC and AC circuit | ||||
| CO3 | Compute the transient response of first order and second order systems to step and sinusoidal INPUT | ||||
| CO4 | Compute power, line/ phase voltage and currents of the given three phase circuit | ||||
| CO5 | Explain the frequency response of series and parallel RLC circuits AND magnetically coupled circuits | ||||
| 2021 | II | GE3252 | Tamils technology | CO1 | To know about the technologies during the sangam age |
| CO2 | To know about the design and construction technology during he sangam age To know about the develpoment of at Tamilnadu during the British period | ||||
| CO3 | To understand about the uses of the metals of Gold ,Copper,Gems during the sangam age To know the evidance described in silappathigaram | ||||
| CO4 | To know about the Agriculture amd irrigation technology during the sangam age | ||||
| CO5 | To know about th development of scientific Tamil &Tamil Computing | ||||
| III | MA3353 | Transforms and differential equations | CO1 | To acquaint the students with Differential Equations which are significantly used in engineering problems. | |
| CO2 | Understand how to solve the given standard partial differential equations | ||||
| CO3 | Solve differential equations using Fourier series analysis which plays a vital role in engineering applications. | ||||
| CO4 | Appreciate the physical significance of Fourier series techniques in solving one and two dimensional heat flow problems and one dimensional wave equations. | ||||
| CO5 | Understand the mathematical principles on transforms and partial differential equations would provide them the ability to formulate and solve some of the physical problems of engineering. | ||||
| CO6 | Use the effective mathematical tools for the solutions of partial differential equations by using Z transform techniques for discrete time systems. | ||||
| EI3351 | Analog Electronics | CO1 | Ability Explain the operation and characteristics of PN junction diode, Zener diode, LED and Laser diode. | ||
| CO2 | Ability To Formulate the expression for voltage gain, current gain, input resistance and output resistance of a BJT CE and CC amplifier using h-parameter model | ||||
| CO3 | Ability To Formulate the expression for voltage gain, input resistance and output resistance of FET amplifier under CS,CG and Source follower | ||||
| CO4 | Ability To Explain the operation of cascade amplifier, differential amplifier, single tuned amplifier and power amplifiers | ||||
| CO5 | Ability To Analyze the operation of negative feedback amplifiers and to design RC and LC tuned Oscillators for a given frequency range | ||||
| 2021 | III | EI3352 |
Digital System Design
and Applications |
CO1 | Ability to Convert various types of codes and number system & gate level implementation of Boolean functions. |
| CO2 | Ability to Apply K –Map for simplification and implementation of combinational logic circuit | ||||
| CO3 | Ability to Design the synchronous Sequential logic circuits namely counters, registers etc, | ||||
| CO4 | Ability to Analyze the asynchronous sequential circuits and explain the operation of memories and digital logic families | ||||
| CO5 | Ability to Design the VHDL coding for combinational logic and Sequential circuits. | ||||
| EI3353 | Transducers Engineering | CO1 | Understand the working principles of various types of transducers | ||
| CO2 | Gain knowledge on the application areas of different sensors | ||||
| CO3 | Select the right sensor/transducer for a given application | ||||
| CO4 | Determine the static and dynamic characteristics of transducers using software packages | ||||
| CO5 | Design simple signal conditioning circuits for the R,L and C type of sensors | ||||
| EI3354 |
Linear Integrated Circuits
and Applications |
CO1 | Explain the IC fabrication process and discuss the fabrication of active and passive components. | ||
| CO2 | Compute the gain and output voltage of the given Op-Amp circuits. | ||||
| CO3 | Explain the internal functional blocks and applications of ICs 555, 566, 565, and AD633 | ||||
| CO4 | Explain the operation of voltage regulator ICs namely LM78XX, LM79XX, LM317 and LM723. | ||||
| CO5 | Explain the operation and design of various signal conditioning circuits. | ||||
| CS3353 | C programming and data structures | CO1 | Develop C programs for any real world/technical application. | ||
| CO2 | Apply advanced features of C in solving problems. | ||||
| CO3 | Write functions to implement linear and non–linear data structure operations. | ||||
| CO4 | Appropriately use sort and search algorithms for a given application. | ||||
| CO5 | Apply appropriate hash functions that result in a collision free scenario for data storage and | ||||
| 2021 | III | EI3361 |
Semiconductor devices and
circuits laboratory |
CO1 | Determine the Breakdown voltage, forward and reverse resistance of PN junction diode and Zener diode and calculate the ripple factor of rectifier circuits with filter. |
| CO2 | Calculate the hybrid parameters of BJT under CE and CB configuration | ||||
| CO3 | Obtain the frequency response of CE amplifier and CS amplifier | ||||
| CO4 | Obtain the UJT and JFET parameters from the characteristics and also to calculate the gain of differential amplifier using JFET. | ||||
| CO5 | Design the RC and LC tuned oscillators for a given oscillating frequency. | ||||
| CS3362 | C programming and data structures laboratory | CO1 | Use different constructs of C and develop applications | ||
| CO2 | Write functions to implement linear and non-linear data structure operations | ||||
| CO3 | Suggest and use the appropriate linear / non-linear data structure operations for a given problem | ||||
| CO4 | Apply appropriate hash functions that result in a collision free scenario for data storage and Retrieval | ||||
| CO5 | CO5 Implement Sorting and searching algorithms for a given application | ||||
| GE3361 | Professional development | CO1 | Use MS Word to create quality documents, by structuring and organizing content for their day to day technical and academic requirements | ||
| CO2 | Use MS EXCEL to perform data operations and analytics, record, retrieve data as per requirements and visualize data for ease of understanding | ||||
| CO3 | Use MS PowerPoint to create high quality academic presentations by including common tables, charts, graphs, interlinking other elements, and using media objects. | ||||
| IV | EI3451 | Industrial Instrumentation | CO1 | Understand Principles and working of Viscosity, Humidity, Moisture, temperature , pressure, flow and level measuring Instruments. | |
| CO2 | Calibrate temperature, flow , level and Pressure measuring devices . | ||||
| CO3 | Apply measurement of Viscosity, Humidity, Moisture, temperature , pressure, flow and level in Industrial Applications. | ||||
| CO4 | Select and install Industrial instruments for various applications | ||||
| CO5 | Understand various Electrical type Industrial Instruments | ||||
| 2021 | IV | IC3451 | Automatic control system | CO1 | To represent and develop systems in different forms using the knowledge gained |
| CO2 | To analyses the system in time and frequency domain | ||||
| CO3 | To discuss the effect of PID controller in closed loop systems | ||||
| CO4 | To construct compensator for the linear systems in frequency domain. | ||||
| CO5 | To analyses the stability of physical systems | ||||
| CO6 | To acquire and analyses knowledge in State variable model for MIMO systems | ||||
| IC3401 | Modern electronic instrumentation | CO1 | To understand the principle behind measurement of Electrical/ mechanical quantities.. | ||
| CO2 | To interpret the specifications of different ADCs/DACs/ Digital interfaces. | ||||
| CO3 | To gain knowledge on different types of MEMS Sensors and their merits/ demerits. | ||||
| CO4 | To learn the basics of wireless instrumentation. | ||||
| CO5 | To analyze and design measurement system for simple applications. | ||||
| CO6 | To develop simple measurement solutions for the measuring given physical quantity. | ||||
| GE3451 | Environmental sciences and sustainability | CO1 | To recognize and understand the functions of environment, ecosystems and biodiversity and their conservation. | ||
| CO2 | To identify the causes, effects of environmental pollution and natural disasters and contribute to the preventive measures in the society. | ||||
| CO3 | To identify and apply the understanding of renewable and non-renewable resources and contribute to the sustainable measures to preserve them for future generations. | ||||
| CO4 | To recognize the different goals of sustainable development and apply them for suitable technological advancement and societal development. | ||||
| CO5 | To demonstrate the knowledge of sustainability practices and identify green materials,energy cycles and the role of sustainable urbanization. | ||||
| IC3402 | Emedded systems and IoT | CO1 | Understand the concept of embedded system and its architectural features | ||
| CO2 | Develop embedded software using Embedded C and Python. | ||||
| CO3 | Integrate/Interface real world field devices with microcontrollers. | ||||
| CO4 | Utilize the power of RTOS for embedded applications. | ||||
| CO5 | Acquire real world signals and perform remote process monitoring utilizing the concept of IoT. | ||||
| CO6 | Design and implement IoT enabled embedded control strategy for a given application. | ||||
| 2021 | IV | IC3452 | Electrical machines and drives | CO1 | Ability to understand the terms associated with electrical machines |
| CO2 | Ability to understand basic concepts and working principle of electrical machines | ||||
| CO3 | Ability to understand the performance characteristics of machines | ||||
| CO4 | Ability to identify suitable machines for carrying out interdisciplinary projects. | ||||
| CO5 | Ability to understand the motor operating principle and characteristics of motor | ||||
| CO6 | CO6 Ability to understand the motor operating principle and characteristics of transformer | ||||
| EI3461 | Digital and linear integrated circuits laboratory | CO1 | Design and implement the given Boolean function using logic gates. | ||
| CO2 | Design and verify the truth table of combinational logic circuits (code converters, encoders, decoders, multiplexer and demultiplexer). | ||||
| CO3 | Design and implement the Counters and Shift registers. | ||||
| CO4 | Design and testing of Op-Amp circuits and to simulatethe op-amp application circuit using simulation tools. | ||||
| CO5 | Design and testing of as table and monostablecircuits using Timer IC NE/SE 555. | ||||
| CO6 | Design and testing of variable voltage regulator using IC LM317/LM723. | ||||
| EI3461 | Sensors and Signals conditioning circuits laboratory | CO1 | Ability to perform error analysis and uncertainty analysis. | ||
| CO2 | Ability to evaluate the static and dynamic characteristics of measuring instruments. | ||||
| CO3 | Ability to design and construct measurement systems using different types of resistancapacitance and inductance transducers. | ||||
| CO4 | Ability to apply special transducers for measurement applications. | ||||
| CO5 | Ability to interface and analyze different signal conditioning units. | ||||
| CO6 | Ability to present the results in oral form as well as in written form as a report and graph. | ||||
| 2017 | V | EI8551 | Analytical Instruments(AI) | CO1 | Ability to understand the fundamental principles of selective analytical instruments used in medical diagnosis, quality assurance & control and research studies. |
| CO2 | Ability to assess and suggest a suitable analytical method for a specific purpose, and evaluate sensitivity, important sources of interferences and errors, and also suggest alternative analytical methods for quality assurance | ||||
| CO3 | Ability to critically evaluate the strengths and limitations of the various instrumental methods. | ||||
| CO4 | Ability to develop critical thinking for interpreting analytical data. | ||||
| CO5 | Ability to understand the working principle, types and applications of NMR and Mass spectroscopy | ||||
| 2017 | V | EI8552 |
Industrial Instrumentation - II(II-2) |
CO1 | Gain knowledge various techniques and methods available for the measurement of flow |
| CO2 | Design an appropriate fiber sensor for various process parameter measurement. | ||||
| CO3 | Design the laser Q factor to achieve a high power laser. | ||||
| CO4 | Gain knowledge about the applications of lasers in material processing and in measurement of various industrial parameters. | ||||
| CO5 | Gain knowledge about the holographic applications in Industries and about various medical applications of lasers. | ||||
| CO6 | Apply the knowledge of fiber technology and laser technology for measurement and medical applications. | ||||
| EI8553 |
Process Control(PC) |
CO1 | Ability to understand technical terms and nomenclature associated with Process control domain. | ||
| CO2 | Ability to build models using first principles approach as well as analyze models. | ||||
| CO3 | Ability to Design, tune and implement PID Controllers to achieve desired performance for various processes | ||||
| CO4 | Ability to Analyze Systems and design & implement control Schemes for various Processes. | ||||
| CO5 | Ability to Identify, formulate and solve problems in the Process Control Domain. | ||||
| EE8551 |
Microprocessors
and Microcontrollers(MP&MC) |
CO1 | Apply memory mapping and draw timing diagram for any instruction in 8085. | ||
| CO2 | Write any programs for different applications using 8085. | ||||
| CO3 | Write any programs for different applications using 8051. | ||||
| CO4 | Select peripherals for a particular application and interface them with 8085 and 8051. | ||||
| CO5 | Apply their programming knowledge for real time applications like stepper motor, servo motor ,Automation etc., | ||||
| EI8093 |
Unit Operation
and Control(UOC) |
CO1 | Study the unit operations involved for transportation, mixing and separation of solids. | ||
| CO2 | Study the unit operations involved for transportation, mixing and separation of fluids | ||||
| CO3 | Understand the basic operations involved with heat exchangers, Distillation and chemical reactions | ||||
| CO4 | Gain knowledge about the operations of evaporators and crystallizers, drying and cooling towers | ||||
| CO5 | Gain knowledge on the operation of dryers, distillation column, refrigerators and chemical reactors. | ||||
| CO6 | Apply concept of unit operations to Thermal Power plant, Steel Industry, Paper and Pulp Industry, Leather Industry | ||||
| 2017 | V | OCE551 | Air Pollution and Control Engineering(AP & CE) | CO1 | Outline the basic concepts of air quality management |
| CO2 | Examine the characteristics of air pollutants and their effects | ||||
| CO3 | Identify, formulate and solve meteorological effects | ||||
| CO4 | ability to design stacks and particulate air pollution control devices to meet applicable standards. ability to design stacks and particulate air pollution control devices to meet applicable standards | ||||
| CO5 | Ability to select control equipment | ||||
| CO6 | Ability to ensure quality, control and preventive measures. | ||||
| EI8561 |
Industrial
Instrumentation Laboratory(II LAB) |
CO1 | Ability to experimentally measure industrial process parameters such as flow, level, temperature, pressure and viscosity. | ||
| CO2 | Ability to measure and analyze pH, conductivity, UV absorbance and transmittance. | ||||
| CO3 | Ability to measure and analyze physiological parameters such as BP, ECG and pulse rate. | ||||
| EE8681 |
Microprocessors
and Microcontrollers Laboratory(MP &MC LAB) |
CO1 | Ability to understand and apply computing platform and software for engineering problems | ||
| CO2 | Ability to programming logics for code conversion | ||||
| CO3 | Ability to acquire knowledge on A/D and D/A | ||||
| CO4 | Ability to understand basics of parallel and serial communication | ||||
| CO5 | Ability to understand and impart knowledge in DC and AC motor interfacing | ||||
| CO6 | Ability to understand basics of software simulators | ||||
| VI | IC8651 | Advanced Control System (ACS) | CO1 | Construct the model of linear and non linear systems using state variable analysis | |
| CO2 | Design and compute the state feedback control and state observer | ||||
| CO3 | Examine sample data analysis | ||||
| CO4 | Analyze the stability of the systems using different techniques. | ||||
| CO5 | Construct phase trajectories for non- linear systems using the phase plane analysis and describing function analysis. | ||||
| CO6 | Discuss the design of optimal controller. | ||||
| 2017 | VI | EI8651 | Logic & Distributed Control System (L&DCS) | CO1 | Know about the Programmable Logic Controller (PLC) and |
| CO2 | SCADA | ||||
| CO3 | Explain about the basics of ladder logic programming | ||||
| CO4 | Explain about the PLC programming using other languages | ||||
| CO5 | Identify the architecture and local control unit of | ||||
| CO6 | Distributed Control System (DCS). | ||||
| CS8391 |
Data Structures (DS) |
CO1 | Gives the basic knowledge in the interfaces used in DCS. | ||
| CO2 | Know about the importance and applications of PLC and DCS | ||||
| CO3 | used in automation industries. | ||||
| CO4 | Implement graph data structures and its traversals | ||||
| CO5 | Discuss the topological sort, graph connectivity and applications of graphs | ||||
| CO6 | Implement Sorting and Searching algorithms, Hash Function and Open addressing | ||||
| EI8092 | Thermal Power Plant Instrumentation (TPP) | CO1 | Describe an overview on power generation through various methods. | ||
| CO2 | Identify various measurements and controls used in power plant. | ||||
| CO3 | Understand basic furnace control techniques | ||||
| CO4 | Know basic boiler control techniques. | ||||
| CO5 | Discriminate advanced boiler control techniques. | ||||
| CO6 | Summarize the turbine control techniques. | ||||
| EI8072 | Advanced Instrumentation Systems (AIS) | CO1 | Understand the instrumentation behind flow, level, temperature and pressure measurement | ||
| CO2 | Acquire basic knowledge on the various types of analyzers used in typical industries. | ||||
| CO3 | Understand the role of Safety instrumented system in the industry. | ||||
| CO4 | Explain Standards for applying Instrumentation in Hazards Locations. | ||||
| CO5 | Design, develop, and interpret the documents used to define instruments and control Systems for a typical project, including P&IDs, loop diagrams, specification forms, Instrument lists, logic diagrams, installation details, and location plans | ||||
| CS8381 | Data Structures Laboratory (DS LAB) | CO1 | Implement the linear data structures like list and stack using arrays and linked list Implement the linear data structures like list and stack using arrays and linked list | ||
| CO2 | Implement the applications of linear data structures | ||||
| CO3 | Implement the non-linear data structures tree and its traversals and applications | ||||
| CO4 | Implement the non-linear data structures graph and its traversals | ||||
| CO5 | Implement Sorting and Searching algorithms | ||||
| CO6 | Implement various Hash Functions | ||||
| 2017 | VI | EI8661 | Process Control Laboratory | CO1 | Simulate lumped / distributed parameter system and identify the model using non parametric identification methods. |
| CO2 | Analyze process control engineering problems and control valve characteristics. | ||||
| CO3 | Apply the tuning techniques on PID controllers for solving various practical problems and to face implementation issues. | ||||
| CO4 | Experiment and control of closed loop AC and DC drives. | ||||
| CO5 | Experimentally verify the process control concepts on the selected process control loops like level, pressure, temperature and flow. | ||||
| CO6 | Apply the complex control techniques like cascade, feed forward on three tank and four tank system and model predictive control schemes. | ||||
| HS8581 | Professional Communication | CO1 | To enhance the learners speaking skill through various activities like group discussion, telephonic conversation, presentation skill etc., | ||
| CO2 | To develop listening and speaking skills through communicative functions | ||||
| CO3 | Enhance the Employability and Career Skills of student | ||||
| CO4 | Orient the students towards grooming as a professional | ||||
| CO5 | Make them Employability Graduates | ||||
| CO6 | Develop their confidence and help them attend interviews successfully | ||||
| 2017 | VII | EI8751 | Industrial Data Networks | CO1 | Infer knowledge on the basic concepts of data networks. |
| CO2 | Define the basics concepts of internetworking and serial communications. | ||||
| CO3 | Describe the uses of HART and Field buses in process industries. | ||||
| CO4 | Recognize the importance of MODBUS, PROFIBUS and other communication protocol. | ||||
| CO5 | Identify the importance and applications of foundation fieldbus | ||||
| CO6 | Exhibit the concept of industrial Ethernet and wireless communication techniques. | ||||
| EI8091 | Instrumentation in Petrochemical industries | CO1 | introduce the students the method of oil recovery | ||
| CO2 | make the students understand the process behavior of some of the important unit operations in petrochemical industry through mathematical model | ||||
| CO3 | familirize the students to apply knowledge to select the appropriate control strategy for the selective process | ||||
| CO4 | provide information about the most important derivatives obtained from petroleum products | ||||
| CO5 | help the students in understanding selection and maintenance of instruments in petrochemical industry | ||||
| 2017 | VII | EC8093 | Digital Image Processing | CO1 | know and understand the basics and fundamentals of digital image processing, such as digitization, sampling, quantization, and 2D-transforms. |
| CO2 | Operate on images using the techniques of smoothing, sharpening and enhancement. | ||||
| CO3 | Understand the restoration concepts and filtering techniques. | ||||
| CO4 | Learn the basics of segmentation, features extraction. | ||||
| CO5 | Become familiar with image compression and recognition methods for color models. | ||||
| GE8071 | Disaster Management | CO1 | Students will be able to differentiate the types of disasters, causes and their impact on environment and society. | ||
| CO2 | Students will be able to assess various methods of risk reduction measures | ||||
| CO3 | Students will be able to draw the hazard and vulnerability profile of India, Scenarious in the Indian context. | ||||
| CO4 | Students will be able to understand and apply government act and information technology during disaster. | ||||
| CO5 | Students will be able to do disaster damage assessment and management. | ||||
| GE8077 | Total Quality Management | CO1 | Ability to apply TQM concepts in a selected enterprise. | ||
| CO2 | Ability to apply TQM principles in a selected enterprise. | ||||
| CO3 | Ability to understand Six Sigma and apply Traditional tools, New tools, Benchmarking and FMEA. | ||||
| CO4 | Ability to understand Taguchi's Quality Loss Function, Performance ,Measures and apply QFD, TPM, COQ and BPR. | ||||
| CO5 | Ability to apply QMS and EMS in any organization. | ||||
| OBT751 |
Analytical Methods
and Instrumentation |
CO1 | Ability to understand the fundamental principles of selective analytical instruments used in medical diagnosis, quality assurance & control and research studies. | ||
| CO2 | Ability to assess and suggest a suitable analytical method for a specific purpose, and evaluate sensitivity, important sources of interferences and errors, and also suggest alternative analytical methods for quality assurance | ||||
| CO3 | Ability to critically evaluate the strengths and limitations of the various instrumental methods. | ||||
| CO4 | Ability to develop critical thinking for interpreting analytical data. | ||||
| CO5 | Ability to understand the working principle, types and applications of NMR and Mass spectroscopy | ||||
| 2017 | VII | EI8761 | Industrial Automation Laboratory | CO1 | understand and Programming of PLC, SCADA and DCS |
| CO2 | To working with industrial automation system | ||||
| CO3 | To design and implement control schemes in PLC & DCS | ||||
| CO4 | To interface field devices with PLC & DCS | ||||
| CO5 | To implement the model based control schemes. | ||||
| EI8762 |
Instrumentation System Design Laboratory |
CO1 | Design Instrumentation Amplifier practically for sensor output signal amplification. | ||
| CO2 | Design active Low pass and High pass filters for filtering the unwanted signals. | ||||
| CO3 | Develop various signal conditioning circuit, measure the parameters and comment on the linearity. | ||||
| CO4 | Design Linearization and compensation for Thermocouple output. | ||||
| CO5 | Design different flow measurement devices. | ||||
| CO6 | Draw the piping and Instrumentation diagram for various process and prepare project documentation. | ||||
| VIII | EI8078 | Project Management and Finace | CO1 | To understand what are the objectives of project management. | |
| CO2 | To outline the principles followed it carrying out a project. | ||||
| CO3 | To demonstrate knowledge and understanding of engineering and management principles | ||||
| CO4 | To function effectively as an individual, and as a member or leader in diverse teams. | ||||
| CO5 | To understand the concepts of finance and accounts carried out in project management. | ||||
| GE8076 | Professional Ethicks in Engineering | CO1 | Students will be able to apply the principles of human values and ethics. | ||
| CO2 | Students will be able to apply the concepts of Professional ideals and virtues. | ||||
| CO3 | Students will be able to apply the code of ethics. | ||||
| CO4 | Students will be able to evaluate the consequences of safety and risk. | ||||
| CO5 | Students will be able to differentiate the responsibility and rights of Engineering professionals. | ||||
| 2017 | VIII | IC8811 | Project Work | CO1 | Experiment a specific problem right from its identification, formulation and obtaining successful solution for the same using various engineering techniques. |
| CO2 | Choose any challenging practical problems and find solution by formulating proper methodology. | ||||
| CO3 | Prepare project reports and to face reviews and viva voce examination. | ||||
| CO4 | Integrate and work in a team. | ||||
| CO5 | Summarize the project and prepare the publication of papers and journals to expose to the technical world. |
